User:Milton Beychok/Sandbox: Difference between revisions
Jump to navigation
Jump to search
imported>Milton Beychok No edit summary |
imported>Milton Beychok No edit summary |
||
Line 1: | Line 1: | ||
{{Image|Water Vapor Pressure.png|right|475px|Add image caption here.}} | {{Image|Water Vapor Pressure.png|right|475px|Add image caption here.}} | ||
The '''water dew point''' (or simply the '''dew point''') of a [[gas]] mixture is the [[temperature]], at a given [[pressure]], at which any [[water]] [[vapor]] in the gas mixture will start to [[Condensation|condense]] into [[liquid]] water. | The '''water dew point''' (or simply the '''dew point''') of a [[gas]] mixture is the [[temperature]], at a given [[pressure]], at which any [[water]] [[vapor]] in the gas mixture will start to [[Condensation|condense]] into [[liquid]] water. The water dew point of a gas, at a given pressure, is often referred to as the point at which the gas is ''saturated'' with water vapor (i.e., the gas cannot hold any more water vapor). | ||
The dew point of a gas mixture is involved with its [[relative humidity]]. A relative humidity of 100% indicates that the gas mixture is at its dew point and saturated with water vapor. A relative humidity of less than 100 % indicated that the gas mixture is not at its dew point and not yet saturated with water vapor. |
Revision as of 15:42, 7 May 2010
The water dew point (or simply the dew point) of a gas mixture is the temperature, at a given pressure, at which any water vapor in the gas mixture will start to condense into liquid water. The water dew point of a gas, at a given pressure, is often referred to as the point at which the gas is saturated with water vapor (i.e., the gas cannot hold any more water vapor).
The dew point of a gas mixture is involved with its relative humidity. A relative humidity of 100% indicates that the gas mixture is at its dew point and saturated with water vapor. A relative humidity of less than 100 % indicated that the gas mixture is not at its dew point and not yet saturated with water vapor.